CN215649518U - Detachable physiotherapy shoe-pad - Google Patents

Abstract

A detachable physiotherapy insole is characterized in that: comprises a mounting layer, a pulse layer and/or a heating layer, a fixed layer and a controller; the pulse layer and/or the heating layer are/is arranged on the upper surface of the mounting layer; the fixed layer is arranged on the bottom surface of the mounting layer; the controller can be detachably arranged on the fixed layer, is covered by the mounting layer and/or the fixed layer when being assembled, and is electrically connected with the pulse layer and/or the heating layer; the pulse layer and/or the heating layer are in contact with the sole of the user's foot and perform pulse and/or heating physiotherapy for the sole of the user's foot by the control of the controller. The controller of the utility model is detachably connected with the fixed layer; when the controller assembles, can control pulse layer and/or zone of heating and accomplish pulse and/or heating physiotherapy to can be covered by erection layer and/or fixed bed, in order to improve the outward appearance wholeness of physiotherapy shoe-pad and user's use travelling comfort, also can effectively protect the controller, when the controller was dismantled, the physiotherapy shoe-pad can act as ordinary shoe-pad and supply the user to use or wash.

Description

Detachable physiotherapy shoe-pad

Technical Field

The utility model relates to a detachable physiotherapy insole.

Background

Chinese patent document No. CN207118658U discloses an active temperature and humidity control shoes in 2018, 3, 20, which includes sole, insole and upper of a shoe, the sole is opened there is foot type cavity, and the heel department of foot type cavity is equipped with humidity inductor, temperature-sensing ware, CPU and rechargeable battery, CPU is connected with humidity inductor, temperature-sensing ware, rechargeable battery respectively, and foot type cavity arch department is fixed with pulse piston air pump and stoving, pulse piston air pump and stoving are connected with CPU respectively, sole heel department is opened there is battery charging socket, and battery charging socket is connected with rechargeable battery. The active temperature and humidity adjusting shoe can dry and heat a wetted shoe, can keep the shoe body dry and warm even in rainy days, and has good air permeability and high wearing comfort. However, above-mentioned structure can only be used for temperature humidity control, can't satisfy different user's different physiotherapy demands, and each electrical components all adopts fixed mode to install simultaneously, and the structure is complicated, and manufacturing cost is unfavorable for user's routine maintenance simultaneously, and in addition, the user of different foot shapes can only be to shoes global replacement when using, and the user of unable adaptation different foot shapes uses, improves user's use cost. Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a detachable physiotherapy insole which is simple and reasonable in structure, excellent in performance, low in manufacturing cost, convenient to use, safe, reliable and comfortable, so as to overcome the defects in the prior art.

The detachable physiotherapy insole designed according to the purpose is characterized in that: comprises a mounting layer, a pulse layer and/or a heating layer, a fixed layer and a controller; the pulse layer and/or the heating layer are/is arranged on the upper surface of the mounting layer; the fixing layer is arranged on the bottom surface of the mounting layer; the controller is detachably arranged on the fixed layer, is covered by the mounting layer and/or the fixed layer during assembly, and is electrically connected with the pulse layer and/or the heating layer; the pulse layer and/or the heating layer are in contact with the sole of the user and perform pulse and/or heating physiotherapy on the sole of the user under the control of the controller.

The controller is provided with a first pulse output connecting part, a second pulse output connecting part and/or a first heating output connecting part and a second heating output connecting part, wherein the first pulse output connecting part, the second pulse output connecting part and/or the first heating output connecting part and the second heating output connecting part are arranged in a protruding mode or a recessed mode; the controller is electrically connected with the pulse layer through the first pulse output connecting part and the second pulse output connecting part during assembly, and/or is electrically connected with the heating layer through the first heating output connecting part and the second heating output connecting part.

The pulse layers are divided into two blocks and form a positive electrode and a negative electrode, and the bottom surfaces of the two pulse layers are respectively provided with a first conductive part and a second conductive part, wherein the shapes of the first conductive part and the second conductive part respectively correspond to the shapes of the first pulse output connecting part and the second pulse output connecting part, and plug-in type electric control connection is formed between the first conductive part and the second conductive part; the fixed layer and/or the heating layer are provided with pulse avoiding holes corresponding to the first conductive part and the second conductive part and the first pulse output connecting part and the second pulse output connecting part in a plugging manner.

The heating layers are divided into two parts and form a positive electrode and a negative electrode, and the bottom surfaces of the two heating layers are respectively provided with a first heating part and a second heating part, wherein the shapes of the first heating part and the second heating part respectively correspond to the shapes of the first heating output connecting part and the second heating output connecting part, and the first heating part and the second heating part are mutually connected in a plug-in type electric control manner; the fixed layer is provided with heating avoiding holes corresponding to the first heating part and the second heating part and the plug between the first heating output connecting part and the second heating output connecting part.

An upper mounting groove is formed in the upper surface of the mounting layer; the pulse layer and/or the heating layer are fixedly arranged on the upper mounting groove through glue, sewing, hot pressing, clamping, fastening pieces or magnetic attraction; the upper mounting groove is provided with pulse through holes corresponding to the plugging between the first and second conductive parts and the first and second pulse output connecting parts, and/or provided with heating through holes corresponding to the plugging between the first and second heating parts and the first and second heating output connecting parts.

The bottom surface of the mounting layer is provided with a lower mounting groove; the fixing layer is fixedly arranged on the lower mounting groove through glue, sewing, hot pressing, clamping, fastening pieces, magnetic attraction or magic tapes; the lower mounting groove is also provided with two or more through holes corresponding to the electric control connection between the pulse layer and/or the heating layer and the controller.

The bottom surface of the fixed layer is provided with a bottom mounting groove; the controller is detachably arranged on the bottom mounting groove through clamping, or a fastener, or a magnetic suction, or a magic tape; the bottom mounting groove is provided with two or more avoidance holes corresponding to the electric control connection between the pulse layer and/or the heating layer and the controller.

The installation layer is provided with a size wire casing for a user to trim the size of the physiotherapy insole.

The controller is powered by a replaceable non-rechargeable battery and/or the controller is powered by a rechargeable battery, and a charging hole and/or a charging indicator light are/is further arranged on the controller.

The controller is provided with a Bluetooth receiver, and/or a Wi-Fi receiver, and/or a radio frequency receiver, and/or an infrared receiver, wireless remote control is achieved through the Bluetooth receiver, and/or the Wi-Fi receiver, and/or the radio frequency receiver, and/or the infrared receiver, and/or a control key is arranged on the controller.

Through the improvement of the structure, the upper surface of the installation layer is provided with the pulse layer and/or the heating layer which is contacted with the sole of a user, the bottom surface is provided with the fixing layer which can be assembled and disassembled with the controller, and the controller is matched and connected with the fixing layer in a detachable mode; therefore, when the controller is assembled, the pulse layer and/or the heating layer can be controlled to carry out pulse and/or heating physiotherapy on the sole of the foot of the user, so that the foot physiotherapy can be realized no matter the user walks or works; when the controller is disassembled, the physiotherapy insole can be used as a common insole for a user to use or clean, so that the user can use the physiotherapy insole daily and keep the cleanliness of the physiotherapy insole. Moreover, the controller can be covered by the installation layer and/or the fixed layer when the assembly, therefore the user can not see the controller when normally using, not only improves the appearance wholeness of the physiotherapy insole, but also can improve the use comfort of the user, and simultaneously can also carry out effective protection to the controller, avoid exposing, the user touches easily in the use, lead to the user to be injured, influence the use feel, or cause a series of problems such as controller damage, thereby ensure that the controller can normally work, improve the use experience of the user.

In summary, the multifunctional electric heating cooker has the characteristics of simple and reasonable structure, excellent performance, low manufacturing cost, convenience in use, safety, reliability, comfort and the like, and is high in practicability.

Drawings

Fig. 1 is a front assembly structure diagram of the first embodiment of the present invention.

Fig. 2 is a schematic view of a back surface mounting structure according to a first embodiment of the present invention.

Fig. 3 is a schematic front exploded view of the first embodiment of the present invention.

Fig. 4 is a schematic rear exploded view of the first embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a controller according to a first embodiment of the present invention.

Fig. 6 is a schematic front exploded view of a second embodiment of the present invention.

Fig. 7 is a schematic rear exploded view of a second embodiment of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and examples.

First embodiment

Referring to fig. 1-5, the detachable physiotherapy insole comprises an installation layer 1, wherein the upper surface of the installation layer 1 is provided with a pulse layer 2 and/or a heating layer 3, the bottom surface of the installation layer 1 is provided with a fixed layer 4, the fixed layer 4 is provided with a controller 5, and the controller 5 is detachably arranged on the fixed layer 4, covered by the installation layer 1 and/or the fixed layer 4 during assembly and electrically connected with the pulse layer 2 and/or the heating layer 3; the pulse layer 2 and/or the heating layer 3 are in contact with the sole of the user and perform pulse and/or heating physiotherapy for the sole of the user by the control of the controller 5.

The present embodiment is preferably provided with both the pulse layer 2 and the heating layer 3 on the upper surface of the mounting layer 1. The controller 5 is matched and connected with the fixed layer 4 in a detachable mode; therefore, when the controller 5 is assembled, the pulse layer 2 and the heating layer 3 can be controlled to carry out pulse and heating physiotherapy on the sole of the foot of the user, so that the foot physiotherapy can be realized no matter the user walks or works; when the controller 5 is disassembled, the physiotherapy insole can be used as a common insole for a user to use or clean, which is convenient for the user to use in daily life and keeps the cleanness of the physiotherapy insole.

Specifically, the installation layer 1 is as the main part of physiotherapy insole, it is the cotton pad of EVA bubble, the user directly tramples on it when using, has good use travelling comfort, the size of installation layer 1 is adjustable, its concrete expression is as shown in 2, fig. 4, the upper end of installation layer 1 is provided with a plurality of arc line, this arc line is size wire casing 27, the user can be maintained the size of installation layer 1 according to self user demand when using, in order to be fit for not unidimensional foot and shoes, so that the physiotherapy insole of this structure can extensively be applicable to different users, the use of shoes size.

As shown in fig. 1, it shows the whole structure of the assembled physiotherapy insole, and the user uses the insole in a pair.

The upper surface of the mounting layer 1 is provided with an upper mounting groove 16, and the bottom surface is provided with a lower mounting groove 19.

The pulse layer 2 and the heating layer 3 are fixedly arranged on the upper mounting groove 16 through glue, sewing, hot pressing, clamping, fastening pieces, magnetic attraction or magic tapes. The present embodiment prefers that the pulse layer 2 and the heating layer 3 are adhered to the upper mounting groove 16 by glue.

The fixing layer 4 is a plastic hard shell, and is mainly used for fixing and assembling the controller 5, and is fixedly arranged on the lower mounting groove 19 through glue, sewing, hot pressing, clamping, fastening pieces, magnetic attraction or magic tapes. The fixing layer 4 is preferably adhered to the lower mounting groove 19 by glue in this embodiment.

The bottom surface of the fixed layer 4 is provided with a bottom mounting groove 20; the controller 5 is detachably arranged on the bottom mounting groove 20 through clamping, or a fastener, or magnetic attraction, or a magic tape. In addition, it is within the scope of the present application for the skilled artisan to make adjustments to the controller 5 to be fixedly disposed on the bottom mounting groove 20 by welding.

In the present embodiment, it is preferable that the controller 5 is provided with a buckle 23 and a fastening portion 24, and the bottom mounting groove 20 is provided with a buckle fitting position 25 and a fastening fitting position 26; when the controller 5 is assembled, the controller 5 is firstly clamped on the clamping fit position 25 through the clamping buckle 23, and then is fastened and acted on the fastening part 24 and the fastening fit position 26 in sequence through the fastening piece, so that the controller 5 is fastened and assembled on the bottom installation groove 20.

Because the installation layer 1 is the cotton pad of EVA bubble, it is located the superiors, fixed layer 4 is located installation layer 1 below, controller 5 is covered by installation layer 1 and fixed layer 4 after the assembly simultaneously, therefore the user can not see controller 5 when normal use, not only the outward appearance wholeness of physiotherapy shoe-pad has been improved, the cotton pad of EVA bubble still improves splendid soft support for the user, thereby can improve user's use travelling comfort, installation layer 1 and fixed layer 4 also can carry out effectual protection to controller 5 simultaneously, avoid it because of exposing, the user touches easily in the use, lead to the user injured, influence and use the feel, or cause a series of problems such as controller 5 damage, thereby ensure that controller 5 can normally work, improve user's use experience, thereby ensure that controller 5 can normally work, improve user's use and experience

The lower mounting groove 19 is also provided with two or more through holes corresponding to the electric control connection among the pulse layer 2, the heating layer 3 and the controller 5.

The bottom mounting groove 20 is also provided with two or more avoidance holes corresponding to the electric control connection between the pulse layer 2 and/or the heating layer 3 and the controller 5.

More specifically, the controller 5 is provided with a first pulse output connection part 6, a second pulse output connection part 7, a first heating output connection part 8 and a second heating output connection part 9, wherein the first pulse output connection part 6, the second pulse output connection part 7, the first heating output connection part 8 and the second heating output connection part 9 are arranged in a protruding manner or a recessed manner; and when the controller 5 is assembled, the controller is electrically connected with the pulse layer 2 through the first pulse output connecting part and the second pulse output connecting part, and is electrically connected with the heating layer 3 through the first heating output connecting part and the second heating output connecting part.

The pulse layer 2 is one of conductive silica gel, conductive PET or conductive cloth, and is divided into two parts to form a positive electrode and a negative electrode, the bottom surfaces of the two pulse layers 2 are respectively provided with a first conductive part 10 and a second conductive part 11, wherein the shapes of the first conductive part 10 and the second conductive part 11 respectively correspond to the shapes of the first pulse output connecting part 6 and the second pulse output connecting part 7, and a plug-in type electric control connection is formed between the first conductive part 10 and the second conductive part.

In the present embodiment, the first pulse output connection portion 6 and the second pulse output connection portion 7 are respectively provided on the controller 5 in a recessed manner, and the first conductive portion 10 and the second conductive portion 11 are respectively provided on the bottom surfaces of the two pulse layers 2 in a protruding manner.

The fixed layer 4 is provided with a pulse avoiding hole 12 corresponding to the plugging between the first and second conductive parts and the first and second pulse output connecting parts. The upper mounting groove 16 and the heating layer 3 are provided with pulse through holes 17 corresponding to the plugging between the first and second conductive parts and the first and second pulse output connecting parts. The pulse avoiding hole 12 and the pulse via hole 17 have a certain guiding function, and can guide the first and second conductive parts to be matched with the first and second pulse output connecting parts.

Namely, the first conductive part 10 and the second conductive part 11 sequentially pass through the pulse via hole 17 and the pulse avoiding hole 12 and then are respectively connected to the first pulse output connection part 6 and the second pulse output connection part 7 in a plug-in type electric control manner. The plug-in type electric control connection between the first conductive part 10 and the second conductive part 11 and the first conductive part 10 and the second conductive part 11 is similar to the plug-in type connection mode of a coupler, and the plug-in type electric control connection is simple in structure and convenient to disassemble and assemble.

The heating layer 3 is one of infrared ray, silver paste, conductive carbon paste, graphene printed film and heating wire, and is divided into two, and forms anodal and negative pole, and two heating layer 3 bottom surfaces are provided with first heating portion 13 and second heating portion 14 respectively, and wherein, the shape of first heating portion 13 and second heating portion 14 corresponds with the shape of first heating output connecting portion 8, second heating output connecting portion 9 respectively, and forms the automatically controlled connection of plug-in formula each other.

The first heating output connection portion 8 and the second heating output connection portion 9 of the present embodiment are respectively disposed on the controller 5 in a recessed manner, and the first heating portion 13 and the second heating portion 14 are respectively disposed on the bottom surfaces of the two heating layers 3 in a protruding manner.

The fixed layer 4 is provided with a heating avoiding hole 15 corresponding to the first and second heating parts and the first and second heating output connecting parts. The upper mounting groove 16 is provided with a heating via hole 18 corresponding to the insertion and extraction between the first and second heating parts and the first and second heating output connection parts. The heating avoiding hole 15 and the heating via hole 18 have a certain guiding function, and can guide the first heating part and the second heating part to be matched with the first heating output connecting part and the second heating output connecting part.

Namely, the first heating part 13 and the second heating part 14 sequentially pass through the heating via hole 18 and the heating avoiding hole 15 and are electrically connected to the first heating output connection part 8 and the second heating output connection part 9 in a plug-in manner. The plug-in type electric control connection between the first heating part 13 and the second heating part 14 and the first heating output connecting part 8 and the second heating output connecting part 9 is similar to the plug-in connection mode of a coupler, and the plug-in type electric control connector is simple in structure and convenient to disassemble and assemble.

More specifically, two pulse layers 2 are respectively stacked on two heating layers 3, and simultaneously, the two pulse layers 2 and the two heating layers 3 are respectively arranged on the mounting layer 1 in a front-back arrangement manner, so that both the sole bottom of the front sole and the sole bottom of the rear sole of the user can be in contact with the pulse layers 2 and the heating layers 3. Considering the shape of the arch of the sole of the hand, the controller 5 is arranged at the back position of the inner side of the bottom surface of the mounting layer 1, which can not play a role of supporting the sole of the foot and can reasonably utilize the space position of the physiotherapy insole.

The pulse layer 2, the heating layer 3 and the controller 5 are electrically controlled and connected in a plugging mode, and no electric wire is involved, so that the appearance of the physiotherapy insole is more tidy and beautiful.

The controller 5 is powered by a rechargeable battery and/or an alternative non-rechargeable battery when in operation.

The preferred controller 5 of this embodiment is powered by rechargeable batteries and is also provided with a charging aperture 21 and/or a charging indicator light.

The controller 5 is provided with a Bluetooth receiver, and/or a Wi-Fi receiver, and/or a radio frequency receiver, and/or an infrared receiver, and wireless remote control is realized through the Bluetooth receiver, and/or the Wi-Fi receiver, and/or the radio frequency receiver, and/or the infrared receiver. When the physiotherapy insole is used by a user, the physiotherapy insole can be wirelessly remotely operated by a remote controller or intelligent equipment in the modes of Bluetooth, Wi-Fi, radio frequency, infrared rays and the like.

Besides, the controller 5 may further be provided with a control button 22, the control button 22 is a touch type or a mechanical type, and the control button 22 of the present embodiment is preferably a mechanical type and is disposed outside the controller 5 for the convenience of the user.

Second embodiment

Referring to fig. 6 and 7, the detachable physiotherapeutic insole is different from the first embodiment in that: the upper surface of the mounting layer 1 is provided with only the impulse layer 2 which is in contact with the sole of the user's foot.

Correspondingly, the controller 5 is provided with only the first pulse output connection part 6 and the second pulse output connection part 7.

The fixed layer 4 is provided with a pulse avoiding hole 12 corresponding to the plugging between the first and second conductive parts and the first and second pulse output connecting parts.

The upper mounting groove 16 is provided with a pulse via hole 17 corresponding to the insertion and extraction between the first and second conductive parts and the first and second pulse output connection parts.

The other parts not described are the same as those of the first embodiment.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (10)

1. A detachable physiotherapy insole is characterized in that: comprises a mounting layer, a pulse layer and/or a heating layer, a fixed layer and a controller; the pulse layer and/or the heating layer are/is arranged on the upper surface of the mounting layer; the fixing layer is arranged on the bottom surface of the mounting layer; the controller is detachably arranged on the fixed layer, is covered by the mounting layer and/or the fixed layer during assembly, and is electrically connected with the pulse layer and/or the heating layer; the pulse layer and/or the heating layer are in contact with the sole of the user and perform pulse and/or heating physiotherapy on the sole of the user under the control of the controller.

2. A removable physiotherapeutic insole as claimed in claim 1, wherein: the controller is provided with a first pulse output connecting part, a second pulse output connecting part and/or a first heating output connecting part and a second heating output connecting part, wherein the first pulse output connecting part, the second pulse output connecting part and/or the first heating output connecting part and the second heating output connecting part are arranged in a protruding mode or a recessed mode; the controller is electrically connected with the pulse layer through the first pulse output connecting part and the second pulse output connecting part during assembly, and/or is electrically connected with the heating layer through the first heating output connecting part and the second heating output connecting part.

3. A removable physiotherapeutic insole as claimed in claim 2, wherein: the pulse layers are divided into two blocks and form a positive electrode and a negative electrode, and the bottom surfaces of the two pulse layers are respectively provided with a first conductive part and a second conductive part, wherein the shapes of the first conductive part and the second conductive part respectively correspond to the shapes of the first pulse output connecting part and the second pulse output connecting part, and plug-in type electric control connection is formed between the first conductive part and the second conductive part; the fixed layer and/or the heating layer are provided with pulse avoiding holes corresponding to the first conductive part and the second conductive part and the first pulse output connecting part and the second pulse output connecting part in a plugging manner.

4. A removable physiotherapeutic insole as claimed in claim 2, wherein: the heating layers are divided into two parts and form a positive electrode and a negative electrode, and the bottom surfaces of the two heating layers are respectively provided with a first heating part and a second heating part, wherein the shapes of the first heating part and the second heating part respectively correspond to the shapes of the first heating output connecting part and the second heating output connecting part, and the first heating part and the second heating part are mutually connected in a plug-in type electric control manner; the fixed layer is provided with heating avoiding holes corresponding to the first heating part and the second heating part and the plug between the first heating output connecting part and the second heating output connecting part.

5. A removable physiotherapeutic insole according to claim 3 or 4, characterized in that: an upper mounting groove is formed in the upper surface of the mounting layer; the pulse layer and/or the heating layer are fixedly arranged on the upper mounting groove through glue, sewing, hot pressing, clamping, fastening pieces or magnetic attraction; the upper mounting groove is provided with pulse through holes corresponding to the plugging between the first and second conductive parts and the first and second pulse output connecting parts, and/or provided with heating through holes corresponding to the plugging between the first and second heating parts and the first and second heating output connecting parts.

6. A removable physiotherapeutic insole according to claim 5, wherein: the bottom surface of the mounting layer is provided with a lower mounting groove; the fixing layer is fixedly arranged on the lower mounting groove through glue, sewing, hot pressing, clamping, fastening pieces, magnetic attraction or magic tapes; the lower mounting groove is also provided with two or more through holes corresponding to the electric control connection between the pulse layer and/or the heating layer and the controller.

7. A removable physiotherapeutic insole according to claim 6, wherein: the bottom surface of the fixed layer is provided with a bottom mounting groove; the controller is detachably arranged on the bottom mounting groove through clamping, or a fastener, or a magnetic suction, or a magic tape; the bottom mounting groove is provided with two or more avoidance holes corresponding to the electric control connection between the pulse layer and/or the heating layer and the controller.

8. A removable physiotherapeutic insole according to claim 6, wherein: the installation layer is provided with a size wire casing for a user to trim the size of the physiotherapy insole.

9. A removable physiotherapeutic insole according to claim 7, wherein: the controller is powered by a replaceable non-rechargeable battery and/or the controller is powered by a rechargeable battery, and a charging hole and/or a charging indicator light are/is further arranged on the controller.

10. A removable physiotherapeutic insole as claimed in claim 9, wherein: the controller is provided with a Bluetooth receiver, and/or a Wi-Fi receiver, and/or a radio frequency receiver, and/or an infrared receiver, wireless remote control is achieved through the Bluetooth receiver, and/or the Wi-Fi receiver, and/or the radio frequency receiver, and/or the infrared receiver, and/or a control key is arranged on the controller.

Images